Far bone suture button

ABSTRACT

Suture buttons are disclosed for fixing two bones together. The suture buttons may enable surgeons to more easily and effectively implement the suture button technique, such as to repair syndesmosis injuries in ankles. A first suture button includes a pulley peg extending from a button head. The pulley peg may be positioned with a bone hole upon installation of the first suture button, which may help protect suture and help reduce potential patient discomfort. The second suture button helps facilitate the second suture button flipping into place upon deployment from a button inserter. Each of the first and second provided suture buttons may help reduce friction between the respective buttons and suture during an installation procedure. The first and second provided suture buttons may be used together in a surgical procedure or individually with other suitable buttons or anchors.

PRIORITY CLAIM

The present application claims priority to and the benefit of U.S.Provisional Application 62/898,836, filed Sep. 11, 2019, the entirety ofwhich is herein incorporated by reference.

BACKGROUND

In various instances, patients may suffer injuries that require securinga first or near bone to a second or far bone in order to help thepatient recover from the injury. Injuries to the ankle joint may be onesuch type of injury. The ankle joint is composed of two bones, the tibiaand fibula, which are held together by the distal tibiofibularsyndesmosis. In some instances, such as after ankle injuries, thesyndesmosis can be torn, leaving a gap between the tibia and fibula.Syndesmotic injuries should be repaired if found torn or unstable inorder to prevent ankle instability and subsequently reduce the risk ofankle osteoarthritis.

One method to secure a near bone to a far bone is the suture buttontechnique. The suture button technique includes deploying abone-securing construct that includes a first button coupled to a secondbutton with suture. The suture may be tensioned to secure the near boneto the far bone. For example, to repair syndesmotic injuries, the suturebutton technique involves two buttons that hold the fibula (e.g., nearbone) and tibia (e.g., far bone) together with suture that connects thetwo buttons through a drilled bone hole in the fibula and tibia. Thebuttons are typically put into place with a needle and pull-throughsutures or with a button inserter.

Typical buttons for use in the suture button technique, however, have anumber of drawbacks. Buttons for applying pressure to the near bone mustanchor suture while also enabling the suture's ends to be pulled ortensioned in order to increase tension in the suture between the nearbone button and the far bone button. As the suture is pulled ortensioned it must move or slide relative to the two buttons. Typicalnear bone buttons, however, may be constructed such that an undesiredamount of friction is generated between the near bone button and thesuture. For instance, typical near bone buttons may have multipleindividual openings for different portions or ends of suture. Theindividual openings may restrict movement of the suture, creatingfriction. In other instances, typical near bone buttons may have anopening for the suture sized such that the suture is similarlyrestricted, creating friction. If friction is too great it may causedamage to the suture that requires the surgeon to start the procedureover, or that may cause the suture to fail prior to the patientrecovering. An undesired amount of friction may also make it moredifficult for the surgeon to perform the procedure. For example, thesuture may get caught on an edge while the surgeon is tensioning thesuture.

In addition, typical near bone buttons may extend out from the near bonean undesired amount after installation. This may cause patients agreater level of discomfort than if the near bone button was more flushwith the near bone.

Buttons for applying pressure to the far bone may be transported througha bone hole and then adjusted so that they do not travel back throughthe bone hole. Adjusting a far bone button may involve deploying the farbone button from a button inserter, the deployment causing the far bonebutton to alter its orientation. Typically, however, such deployment mayinvolve forcing the far bone button away from the inserter to give thefar bone button enough space to change it orientation. The amount ofspace needed may make it difficult in some instances to easily andeffectively deploy the far bone button, such as when tissue (e.g., skin)pushes against the far bone button and resists its changing orientation.

In addition, far bone buttons anchor suture that couples a far bonebutton to a near bone button. The suture must move relative to the farbone button as the suture is tensioned to install the far bone buttonand near bone button. Typical far bone buttons may generate a greaterthan desired amount of friction between a typical far bone button andthe suture. For instance, many typical far bone buttons include at leasttwo holes through which the suture moves, with friction generatedbetween each hole and the suture. Such typical configurations with atleast two holes may also cause the suture to wrap around itself or twistwhen loaded into or deployed from a button inserter.

Accordingly, a near bone button that solves the above drawbacks isdesired. Additionally, a far bone button that solves the above drawbacksis desired.

SUMMARY

The presently disclosed suture button, system, and method generallyrelate to surgery techniques to hold two bones together. Morespecifically, suture buttons are disclosed that enable surgeons, or anyother suitable healthcare provider, to more easily and effectivelyimplement the suture button technique, such as to repair syndesmosisinjuries in ankles. A first suture button is disclosed that isconstructed to interface with a nearest bone (e.g., a fibula bone) aspart of the suture button technique to secure a near bone and a farbone. A second suture button is disclosed that is constructed tointerface with a farthest bone (e.g., a tibia bone) as part of thesuture button technique to secure the near bone to the far bone. Asurgeon may use both the provided first suture button and the providedsecond suture button when performing the suture button technique torepair a syndesmosis injury. Alternatively, a surgeon may use theprovided first suture button with another suitable suture button oranchor, or may use the provided second suture button with anothersuitable suture button or anchor.

Throughout this disclosure, the first suture button will be referred toas a fibula button and the second suture button will be referred to as atibia button, though it should be appreciated that the provided firstsuture button and the provided second suture button may be used tosecure together bones other than the fibula and tibia.

In an example, a suture button for aiding in the fixation of two bonesincludes a head and a pulley peg. The suture button's head includes atop surface, a bottom surface, and a first opening extending through thehead from the top surface to the bottom surface. The pulley peg iselongated from a first end to a second end. Each of the pulley peg'sends are connected to or integral with the head's bottom surface so asto form a second opening between the pulley peg and the head's bottomsurface.

In an example, a system includes a first suture button or anchor, asecond suture button, and a button inserter. The second suture button iscoupled by suture to the first suture button or anchor. The secondsuture button includes a head and a pulley peg. The second suturebutton's head includes a top surface, a bottom surface, and a firstopening extending through the head from the top surface to the bottomsurface. The pulley peg is elongated from a first end to a second end.Each of the pulley peg's ends are connected to or integral with thehead's bottom surface so as to form a second opening between the pulleypeg and the head's bottom surface. The button inserter deploys the firstsuture button or anchor and the second suture button. A middle portionof the suture is positioned through the second suture button's secondopening. Each of the suture's ends are positioned through the secondsuture button's first opening. Tensioning the suture's ends tensions thesuture between the first suture button or anchor and the second suturebutton subsequent to deployment from the button inserter.

In an example, a method of securing two bones together includes forminga bone hole through a first bone and a second bone. A first suturebutton or anchor is then inserted, via a button inserter, through thebone hole such that the first suture button or anchor exits on the otherside of the bone hole. The first suture button or anchor is coupled bysuture to a pulley peg of a second suture button. The second suturebutton includes a head and a pulley peg. The second suture button's headincludes a top surface, a bottom surface, and a first opening extendingthrough the head from the top surface to the bottom surface. The pulleypeg is elongated from a first end to a second end. Each of the pulleypeg's ends are connected to or integral with the head's bottom surfaceso as to form a second opening between the pulley peg and the head'sbottom surface. A middle portion of the suture is positioned through thesecond suture button's second opening. Each of the suture's ends arepositioned through the second suture button's first opening.

The first suture button or anchor and the second suture button may bedeployed from the button inserter. The ends of the suture may betensioned such that the first suture button or anchor contacts thesecond bone and the second suture button contacts the first bone. Thesuture may then be secured.

BRIEF DESCRIPTION OF THE DRAWINGS

FIGS. 1A and 1B illustrate perspective views of a fibula button having ahead with a circular opening, according to one aspect of the presentdisclosure.

FIG. 1C illustrates a perspective view of a fibula button having apulley peg with rounded ends, according to one aspect of the presentdisclosure.

FIG. 1D illustrates a perspective view of a fibula button having a headwith a chamfer on its top surface leading to its opening, according toone aspect of the present disclosure.

FIG. 1E illustrates a perspective view of a fibula button having a headwith a chamfer on its bottom surface leading to its opening, accordingto one aspect of the present disclosure.

FIGS. 2A and 2B illustrate cross-sectional side views of a fibula buttonhaving a rounded pulley peg, according to one aspect of the presentdisclosure.

FIG. 2C illustrates a cross-sectional side view of a fibula buttonhaving a non-rounded pulley peg, according to one aspect of the presentdisclosure.

FIGS. 3A and 3B illustrate a perspective and top view, respectively, ofa tibia button, according to one aspect of the present disclosure.

FIGS. 3C and 3D illustrate side views of tibia buttons having inserterends with different angles, according to one aspect of the presentdisclosure.

FIG. 3E illustrates a side view of a tibia button having an off-centeredopening, according to one aspect of the present disclosure.

FIGS. 4A and 4B illustrate side views of example systems including abutton inserter, suture buttons, and suture, according to one aspect ofthe present disclosure.

FIG. 5A illustrates a top view of a portion of an example buttoninserter device loaded with a fibula button, according to one aspect ofthe present disclosure.

FIG. 5B illustrates a cross-sectional front view of an example insertiontip of a button inserter, according to one aspect of the presentdisclosure.

FIGS. 6A and 6B illustrate perspective side views of a tibia buttonloaded into an insertion tip of a button inserter, according to oneaspect of the present disclosure.

FIGS. 6C and 6D illustrate perspective side views of the button inserterof FIG. 6B deploying the tibia button, according to one aspect of thepresent disclosure.

FIG. 7 illustrates a button inserter, loaded with a fibula button andtibia button, positioned through a bone hole to transport the tibiabutton to the other side of the bone hole, according to one aspect ofthe present disclosure.

FIG. 8 illustrates an installed fibula button and a tibia buttonsecuring two bones together, according to one aspect of the presentdisclosure.

DETAILED DESCRIPTION

The presently disclosed suture buttons, system, and method generallyrelate to surgery techniques to hold two bones together. Morespecifically, suture buttons are disclosed that enable surgeons, or anyother suitable healthcare provider, to more easily and effectivelyimplement the suture button technique, such as to repair syndesmosisinjuries in ankles. In one example, a surgeon may use a button inserterto deploy the buttons. In such an example, a first presently disclosedsuture button is adapted to contact the near bone as part of thebone-securing construct. A second presently disclosed suture button isadapted to be transported through a bone hole formed in the near boneand far bone and then to contact the far bone as part of thebone-securing construct. Throughout this disclosure, the first suturebutton will be referred to as a fibula button and the second suturebutton will be referred to as a tibia button, though it should beappreciated that the provided first suture button and the providedsecond suture button may be used to secure together any two bones otherthan the fibula and tibia.

A surgeon may use both the provided fibula button and the provided tibiabutton when performing the suture button technique, such as to repair asyndesmosis injury. Alternatively, a surgeon may use the provided fibulabutton with another suitable suture button or anchor, or may use theprovided tibia button with another suitable suture button or anchor.

In some instances, the provided fibula button construction reducesfriction between the fibula button and suture during the installation ofthe fibula button as compared to typical near bone buttons by includinglarge spaces in the provided fibula button through which suture cantravel without encountering metal components of the fibula button. Theprovided fibula button may include a head and a pulley peg extendingfrom the head. The head includes a single opening and the space betweenthe pulley peg and the head is a second opening. Each of the openings issized such that multiple strands of suture may move freely through theopenings. Suture may move more freely through larger spaces, whichreduces friction between portions of suture and between suture and thefibula button. The provided fibula button may additionally includevarious curved or smooth or chamfered surfaces to further reducefriction.

In some instances, the fibula button's pulley peg is sized such that itmay be inserted within a bone hole. Inserting the pulley peg within abone hole helps lock the fibula button in place to a greater degree thanif the fibula button merely rested on a bone's surface. Inserting thepulley peg within the bone hole also enables the fibula button to bemore flush to the near bone than typical near bone buttons.Additionally, the pulley peg being positioned within the bone hole uponinstallation enables tensioned suture to be maintained inside of thebone rather than on the bone surface where the suture would be moreexposed to other tissues. The fibula button may therefore help decreasepotential patient irritation or discomfort that may arise from aninstalled button or suture protruding from one of the patient's bones.The fibula button may also help protect the tensioned suture frompotential damage. In addition, having the tensioned suture maintainedwithin the bone enables a surgeon to cut the free ends of the sutureflush to the fibula button's surface without the risk of cutting thetensioned suture.

The provided tibia button construction may reduce friction between thetibia button and suture during installation of the tibia button ascompared to typical far bone buttons. For instance, the provided tibiabutton includes a single, large opening for suture to pass through. Thesingle, large opening reduces the number of possible contact pointsbetween the tibia button and the suture as compared to typical buttonsthat include multiple openings for the suture. The tibia button may alsoinclude various curved or smooth or chamfered surfaces to further reducefriction. The provided tibia button further helps prevent the suturefrom winding about itself when the tibia button is loaded into ordeployed from a button inserter by directing the suture to a single siderelative to the button inserter.

The provided tibia button may also be configured such that it isprevented from rotating or laterally translating when loaded into abutton inserter. The provided button insertion system may also helpfacilitate the tibia button flipping upon deployment from a buttoninserter. The tibia button includes a chamfered end that, when loadedinto a button installer, faces towards the suture that couples the tibiabutton to a second button (e.g., a fibula button). The naturalinclination of the tibia button to rotate towards the direction thechamfered end is facing in addition to tension from the suturefacilitates the tibia button flipping in that direction. Further, todeploy the tibia button, the button inserter may include a pusher rodthat extends just beyond the tip of the button inserter to push thetibia button out of the tip within which the tibia button is loaded. Theflipping facilitation aspects of the button insertion system enable thetibia button to flip close to the button inserter tip with little spacein between.

The closeness with which the tibia button flips to the button inserter,and the aspects that help facilitate the tibia button flipping, generatea strong flipping force that helps the tibia button overcome opposingforces from tissue (e.g., skin) that may push against the tibia button.Further, each of these aspects may help increase the ease of deployingthe tibia button as compared to at least some typical button insertionsystems by helping ensure the tibia button changes its orientation, orflips, in a target or desired direction. Additional advantages of theprovided fibula button and the provided tibia button will be apparentfrom the following description of the figures.

FIGS. 1A and 1B illustrate perspective views of an example fibula button100A. The example fibula button 100A includes a button head 102 and apulley peg 108 extending from the button head 102. An opening 114 isformed between the button head 102 and the pulley peg 108. The buttonhead 102 includes a top surface 104 and a bottom surface 110. In variousaspects, the top surface 104 may be rounded to help prevent damage tosurrounding tissue when the fibula button 100A is installed in apatient. In some aspects, the bottom surface 110 may be flat asillustrated. The button head 102 also includes an opening 106 thatextends through the button head 102 from the top surface 104 to thebottom surface 110. The opening 106 is sized such that it canaccommodate multiple strands of suture moving through the opening 106.In some instances, the opening 106 may be sized large enough such that asuture knot may be positioned within the opening 106. The top surface104 may include a chamfer 116 that leads to the opening 106. The chamfer116 may help reduce friction between the button head 102 and suturemoving through the opening 106. In various instances, the opening 106may have a circular cross-section as illustrated.

In various aspects, the pulley peg 108 is elongated from a first end 120to a second end 122. The first end 120 and the second end 122 may beconnected to or integral with the bottom surface 110 of the button head102. In some instances, the pulley peg 108 may include a flat surface118 at each of its ends 120 and 122. The flat surfaces 118 may helpguide suture through the opening 106. In some instances, the pulley peg108 may include a flat surface 112 at each of its ends 120 and 122. Inother instances, the pulley peg 108 may include a curved surface 124 ateach of its ends 120 and 122, as illustrated in FIG. 1C as part ofexample fibula button 100B. The curved surface 124 may help reducefriction between the pulley peg 108 and suture moving towards andthrough the opening 106.

In various instances, the opening 106 may have suitable cross-sectionsother than circular. For example, the opening 106 may have across-section that is pill-shaped, rectangular with rounded corners,oval, or other suitable shapes. FIG. 1D illustrates an example fibulabutton 100C with a button head 102 having an opening 130 with anelongated or pill-shaped cross-section. The pill-shaped cross section ofthe opening 130 may help reduce friction between suture strands and/orbetween suture strands and the button head 102 by providing additionalspace for the suture to move freely. For instance, ends of the suturestrand(s) may move through the opening 130 while remaining outside ofthe outer bounds of the pulley peg 108. Stated differently, the ends ofthe suture strand(s) do not have to move inward to a central opening(e.g., the opening 106) which may cause friction between portions of thesuture strand(s). In addition, the pill-shaped opening 130 may be largeenough such that a suture knot may be positioned within pill-shapedopening 130.

In various instances, the pill-shaped opening 130 may be substantiallyperpendicular to the pulley peg 108 as illustrated. Stated differently,the pill-shaped opening 130 includes a long end and a short end, and aplane extending through a central portion of the two ends 120 and 122 ofthe pulley peg 108 is substantially perpendicular to the long end. Thissubstantially perpendicular configuration enables the pulley peg 108 tomaintain a narrower width than if the ends 120 and 122 of the pulley peg108 were on the outside of the long end of the opening 130. The narrowerwidth enables the pulley peg 108 to fit within a narrower bone hole.

In various instances, the innermost portion of the pulley peg 108 and aninner portion of the button head 102 (e.g., the portion forming theopening 130) share a continuous surface 132. Stated differently, theinner surface of the button head 102 that forms the opening 130continues directly into the pulley peg 108. This is in contrast to therebeing a space on the bottom surface 110 between the opening 130 and theends 120 and 122 of the pulley peg 108. Eliminating this space betweenthe opening 130 and the ends 120 and 122 of the pulley peg 108 helpseliminate edges that may increase friction between suture and the fibulabutton 100C.

In some aspects, the bottom surface of the provided fibula button'sbutton head may include a chamfer leading to the button head's opening.For example, FIG. 1E illustrates an example fibula button 100D in whichthe bottom surface 110 of the button head 102 includes a chamfer 140leading to the opening 130. The chamfer 140 may help reduce frictionbetween the button head 102 and suture moving through the opening 130.

FIGS. 2A and 2B illustrate respective side views, rotated ninety degreeswith respect to one another, of the example fibula button 100A. As willbe discussed in more detail below, the pulley peg 108 is configured tosecure suture (e.g., multiple suture strands and/or multiple portions ofa single suture strand). For example, in FIG. 2B a free end of a suturestrand may enter the opening 114 on one side and exit the opening 114 onthe other side such that when both free ends of the suture strand arepulled away from the fibula button 100A, the pulley peg 108 secures thesuture strand. In other aspects of the present disclosure, the pulleypeg 108 may take other suitable shapes extending outward from the bottomsurface 110 that allow it to secure one or more suture strands. Forexample, FIG. 2C illustrates an example fibula button 200 that includesa pulley peg 208. The pulley peg includes two legs 202A and 202Bconnected by a crossbar 204. In some instances, the legs 202A, 202B andthe crossbar 204 may be a single, integral component. In otherinstances, the crossbar 204 may be connected to the leg 202A and to theleg 202B.

The example fibula buttons 100A, 100B, or 100C may be composed from anysuitable medical-grade material capable of long-term contact withbiological materials. For example, the fibula buttons 100A, 100B, or100C may be composed of nitinol.

FIGS. 3A, 3B, and 3C illustrate a perspective view, top view, and sideview respectively of an example tibia button 300A. The tibia button 300Aincludes a support 302 having an opening 308. The support 302 mayinclude curved surfaces to reduce friction between suture and thesupport 302 during installation of the tibia button 300A. In addition,the inclusion of a single opening 308 in the support 302 for each suturestrand to move through during installation of the tibia button 300A mayhelp reduce friction between the suture and the tibia button 300A ascompared to typical suture buttons having multiple openings fordifferent suture strands or different portions of a single suturestrand. A wing 304 extends from the support 302 to a leading end 310 ofthe tibia button 300A. A wing 306 extends from the support 302 to achamfered end 312 of the tibia button 300A. The wings 304 and 306 mayhave various suitable lengths with respect to the support 302.

In various instances, the wing 306 may be configured to engage with abutton inserter tip such that the wing 306 does not slide or otherwisemove away from the button inserter tip until the tibia button 300A isdeployed. For instance, the wing 306 may include recesses 314A, 314B.The wing 306 may include the recesses 314A, 314B on a single side or onopposing sides (e.g., on the opposing side not illustrated). Thenon-recessed portion(s) of the wing 306 may correspond to a recess orrecesses in the button inserter tip such that when the wing 306 is slidwithin the button inserter tip, lateral movement of the tibia button(e.g., perpendicular to the long axis of the tibia button 300A) isprevented with respect to the button inserter.

The chamfered end 312 of the wing 306 includes a chamfer at an angle316. In various examples, the angle 316 may be equal to thirty degrees.In other examples, the wing 306 may be chamfered at another suitableangle 316, such as between 15-60 degrees. For instance, FIG. 3Dillustrates an example tibia button 300B having a wing 306 with achamfered end 312 at an angle 316 of forty-five degrees. The advantagesthat the chamfered end 312 may provide for the presently disclosed tibiabutton will be discussed in more detail in connection with FIGS. 6A to6D.

In various examples, such as those illustrated in FIGS. 3A to 3D, thesupport 302 and the opening 308 through the support 302 may be centeredrelative to the wings 304 and 306. In other examples, the support 302and/or the opening 308 may be off-center relative to the wings 304 and306. For instance, FIG. 3E illustrates an example tibia button 300Chaving a support 302 and an opening 308 that is off-center from an axis320 of the wings 304 and 306. The support 302 and the opening 308 may beoff-center towards the longer side of the wing 306 (e.g., due to thechamfered end 312) to help the tibia button 300C flip into place duringinstallation, as will be described in more detail below. In otherexamples, the support 302 may be centered while the opening 308 isoff-center. In some instances, the support 302 and the opening 308 maybe centered along the axis 320 such that the wing 304 and the wing 306have equal lengths. In other instances, the support 302 and/or theopening 308 may be off-center along the axis 320. When the support 302is off-center along the axis 320, either the wing 304 or the wing 306may have a longer length than the other.

The example tibia buttons 300A, 300B, or 300C may be composed from anysuitable medical-grade material capable of long-term contact withbiological materials. For example, the fibula buttons 300A, 300B, or300C may be composed of nitinol.

The remaining disclosure will make reference to the example fibulabutton 100A and the example tibia button 300A. The remaining disclosure,however, may apply equally to the example fibula buttons 100B and 100C,the example tibia buttons 300B and 300C, and any other suitable fibulabuttons and/or tibia buttons consistent with the present disclosure.

In some instances, the provided fibula button 100A and/or the providedtibia button 300A may be used with a needle and pull-through suturetechnique. In other instances, the fibula button 100A and/or the tibiabutton 300A may be used in conjunction with a button inserter thatdeploys the fibula button 100A and/or the tibia button 300A forinstallation in a patient. The fibula button 100A may be used inconjunction with the tibia button 300A in a surgical procedure. Thefibula button 100A and the tibia button 300A may alternatively be usedindependently of one another in a surgical procedure. For instance, thefibula button 100A may be used with a suitable anchor or suture buttonother than the tibia button 300A. In another instance, the tibia button300A may be used with a suitable anchor or suture button other than thefibula button 100A.

FIG. 4A illustrates an example button inserter 400 that may be used inconjunction with the presently disclosed fibula button 100A and/or tibiabutton 300A and method. The example button inserter 400 may include ahandle 402, a support protrusion 404, a trigger 406, a shaft 414, apusher rod 408, a resilient member 412 (e.g., a spring), and a buttondeployer 430. The button deployer 430 may include a suture bollard 410and a button post 416. In the example, the tibia button 300A isremovably engaged with the shaft 414. For example, a portion of thetibia button 300A may be positioned within an insertion tip 432 at theend of the shaft 414 such that the tibia button 300A is constrainedrotationally and laterally, as will be described in more detail inconnection with FIGS. 6A to 6D. In the illustrated loaded configurationof the example button inserter 400, tension in the suture 418 may securethe tibia button 300A in place along a long axis of the button inserter400. In some examples, the pusher rod 408 extends from the buttondeployer 430, through the inside of the shaft 414, to make contact withthe tibia button 300A.

The suture 418 may be a flexible material, e.g., suture or suture tape.In some instances, the suture 418 may be a single strand of suture thatis arranged to couple the fibula button 100A to the tibia button 300A.In other instances, the suture 418 may be multiple strands of suturethat are arranged to couple the fibula button 100A to the tibia button300A. In at least one instance, the suture 418 can be an adjustable ornon-adjustable loop. In at least one instance, the combination of thesuture 418, the tibia button 300A, and the fibula button 100A can be anadjustable, knotless button/loop construct. The knotless button/loopconstruct may be self-locking.

In the loaded configuration of the example button inserter 400, thefibula button 100A may be held against the button post 416 by tension inthe suture 418. The suture 418 may be wrapped around the suture bollard410 prior to deployment. A surgeon, or any other suitable healthcareprovider, may use the example button inserter 400 to insert the tibiabutton 300A through tunnels in a first bone and a second bone (e.g., afibula and a tibia) and may deploy the tibia button 300A by activatingthe trigger 406 in the direction of the illustrated arrow. The fibulabutton 100A may be deployed by translating the button inserter 400 awayfrom the patient. The suture 418 may then be tensioned and secured toinstall the deployed fibula button 100A and tibia button 300A.

As an alternative to the button inserter 400, FIG. 4B illustrates anexample button inserter 440 that may be used in conjunction with thepresently disclosed fibula button 100A and/or tibia button 300A andmethod. The example button inserter 440 includes a handle 442, a supportprotrusion 444, a trigger 446, an inner rod 508 (FIG. 5 ), a resilientmember 512 (FIG. 5 ), a shaft 452, and a button deployer 530 (FIG. 5 ).The button deployer 530 may include a suture bollard 448 and a buttonpost 450. In the example, the tibia button 300A is removably engagedwith an insertion tip 432 of the shaft 414 in the same or similar manneras with the example button inserter 400 described above. The examplebutton inserter 440 is configured similarly to the example buttoninserter 400. A user may activate the trigger 446 by pulling it in thedirection of the illustrated arrow to deploy the tibia button 300A. Thefibula button 100A may be deployed by translating the button inserter440 away from the patient.

FIG. 5A shows a top view of a portion of the example button inserter440. The example fibula button 100 is held against the button post 450by tension in the suture 418. In some examples, the button post 450includes two separate posts with suitable space in between for thepulley peg 108, as illustrated. This enables the suture 418 to besecured by the pulley peg 108 while also enabling the free ends of thesuture 418 to be pulled through the opening 106.

FIG. 5B illustrates a cross-sectional front view of an example insertiontip 432 of the button inserter 400 or 440. The insertion tip 432 mayinclude a slit 502 between a first end 504A and a second end 504B. Whena tibia button 300A is positioned within the slit 502, the tibia button300A is prevented from rotating about its long axis. In some instances,the first end 504A may include a recess 506. The recess 506 maycorrespond to or line up with a non-recessed portion of the tibia button300A (e.g., see FIG. 3A) such that the wing 306 of the tibia button 300Amay be inserted within the insertion tip 432. For instance, the recess506 may have a rounded cross-section as illustrated, a squaredcross-section, or other suitable shape. The tibia button 300A isaccordingly prevented from moving laterally along a short axis of thebutton inserter 400 or 440 by the non-recessed portion of its wing 306positioned within the recess 506 of the insertion tip 432. In instancesin which the wing 306 of the tibia button 300A includes recesses 314Aand 314B on opposing sides, the second end 504B of the insertion tip 432may include a recess as well. In addition, the recess 506 of theinsertion tip 432 prevents the tibia button 300A from rotating about itsshort axis.

It should be appreciated that the button inserters 400 and 440 aremerely examples of button inserters that may be used to deploy thefibula button 100A and/or the tibia button 300A. Any suitable buttoninserter may be used to deploy the fibula button 100A and/or the tibiabutton 300A that is compatible with the advantages of the fibula button100A and/or the tibia button 300A as described herein.

FIGS. 6A and 6B illustrate perspective side views of alternateconfigurations of the tibia button 300A loaded within the insertion tip432 of a button inserter (e.g., the button inserter 400). In theconfiguration 600A shown in FIG. 6A, the tibia button 300A is positionedwith in the insertion tip 432 such that the chamfered end 312 is facinga first direction (e.g., towards the top of the page). In theconfiguration 600B shown in FIG. 6B, the tibia button 300A is positionedwithin the insertion tip 432 such that the chamfered end 312 is facingopposite of the first direction (e.g., towards the bottom of the page).In each of the configurations 600A and 600B, the chamfered end 312 isfacing towards the suture 418. The chamfered end 312 facing towards thesuture 418 helps facilitate the tibia button 300A flipping into place ina desired direction once the tibia button 300A is deployed. Forinstance, in the configuration 600A, the tibia button 300A flips in thedirection of the arrow 602 upon deployment. Conversely, in theconfiguration 600B, the tibia button 300A flips in the direction of thearrow 604 upon deployment.

In either the configuration 600A or 600B, the configuration of the tibiabutton 300A enables the suture 418 to be to the side of the insertiontip 432 and button inserter shaft, rather than the suture 418 windingaround the button inserter shaft or around the tibia button 300A itself.In addition, the tibia button 300A and the insertion tip 432 may beconstructed such that a gap 606 remains between the tibia button 300Aand the insertion tip 432 when the tibia button 300A is fully inserted.The gap 606 is radiolucent and is therefore visible under x-ray. The gap606 may help a surgeon guide how far the button inserter must beinserted before deploying the tibia button 300A.

FIGS. 6C and 6D further illustrate the configuration 600B to show anexample of the tibia button 300A flipping into place upon deployment.FIG. 6C illustrates that the pusher rod 408 of the example buttoninserter 400 translates to push the tibia button 300A out of theinsertion tip 432. For instance, activating the trigger 406 of thebutton inserter 400 may translate the pusher rod 408. In variousinstances, the pusher rod 408 may extend beyond the end of the insertiontip 432 when the trigger 406 is fully depressed, which may help ensurethat the tibia button 300A is fully separated from the button inserter400 and pushed all the way out of the insertion tip 432. Ensuring thatthe tibia button 300A is fully separated from the button inserter 400may allow for easier deployment when installation of the tibia button300A involves pushing against resisting tissue (e.g., skin). Inaddition, the end of the pusher rod 408 that contacts the tibia button300A may be flat, as illustrated, such that it only contacts the nearestportion of the chamfered end 312. The space between the flat end of thepusher rod 408 and the chamfered end 312 of the tibia button 300A allowsspace for the tibia button 300A to rotate or flip.

Upon the tibia button 300A being pushed all the way out of the insertiontip 432, tension in the suture 418 causes the tibia button 300A to flipto the side of the suture 418 (e.g., in the direction of the arrow 604).The chamfered surface 312 of the tibia button 300A and the minimalcontact between the pusher rod 408 and the chamfered surface 312 helpfacilitate the tibia button 300A flipping towards the side of the suture418. Facilitating the tibia button 300A flipping in a desired or targetdirection may help reduce complications during a surgical procedure thatmay arise by the tibia button 300A flipping in an undesired direction,which may potentially cause the suture 418 to tangle or get pinched. Theprovided flipping facilitation of the present disclosure also enablesthe tibia button 300A to flip very close to the insertion tip 432, whichcan increase the ease of deploying the tibia button 300A. FIG. 6D showsthe flipped tibia button 300A.

As indicated, the fibula button 100A and the tibia button 300A may beutilized as part of the suture-button technique to secure two bonestogether. For example, a method of ankle syndesmosis repair (with orwithout ankle fracture) may include drilling a bone hole through apatient's fibula and tibia. A button inserter (e.g., the button inserter400) may be loaded with the tibia button 300A and the fibula button100A. A surgeon may transport the tibia button 300A through the bonehole via the button inserter. FIG. 7 illustrates the tibia button 300Atransported through a bone hole 706 in a fibula bone 702 and a tibiabone 704 via the button inserter 400. Suture 418 couples the tibiabutton 300A to the fibula button 100A. A surgeon may then deploy thetibia button 300A and the fibula button 100A, such as by activating thetrigger 406 on the button inserter 400 and then translating the buttoninserter 400 away from the patient. In some instances, the tibia button300A may deploy first, and then the fibula button 100A may be deployedonce the tibia button 300A is in position.

Upon deployment, the tibia button 300A flips as described above andcontacts the surface of the tibia bone 704. The surgeon may remove thebutton inserter 400 from the bone hole 706. The surgeon may tension thesuture 418 (e.g., cinch an adjustable construct) to position the fibulabutton 100A and secure it against the lateral surface of the fibula bone702. Once the tibia button 300A and the fibula button 100A are inposition, the suture 418 may be secured, such as by a knot or via aknotless button-loop construct. The free ends of the suture 418 may betrimmed to remove excess material. FIG. 8 illustrates an installedfibula button 100A and tibia button 300A coupled by suture 418 andsecuring the fibula bone 702 to the tibia bone 704. The pulley peg 108of the fibula button 100A is fully within the bone hole 706, whichenables solely the button head 102 of the fibula button 100A to protrudefrom the surface of the fibula bone 702. In some instances, a knot ofsuture 418 may be positioned within the opening 106 of the fibula button100A.

The examples and embodiments disclosed herein are to be construed asmerely illustrative and not a limitation of the scope of the presentdisclosure in any way. It will be apparent to those having skill in theart that changes may be made to the details of the above-describedembodiments without departing from the underlying principles discussed.In other words, various modifications and improvements of theembodiments specifically disclosed in the description above are withinthe scope of the appended claims. For example, any suitable combinationof features of the various embodiments described is contemplated.

The invention is claimed as follows:
 1. A suture button insertion system comprising: a suture; a button inserter including a shaft having an insertion tip, a pusher rod within the shaft, and a trigger, wherein activating the trigger causes the pusher rod to translate within the shaft; and a suture button including: a support having only a single opening, a first wing extending from the support, and a second wing extending from the support directly opposite the first wing, wherein the second wing includes a chamfered end, wherein the suture is positioned through the single opening and on a side of the button inserter, and wherein the second wing is positioned within the insertion tip such that the chamfered end is facing towards the side of the button inserter with the suture.
 2. The suture button insertion system of claim 1, wherein the suture button is a first suture button, and wherein the system further comprises a second suture button or anchor coupled to the first suture button by the suture.
 3. The suture button insertion system of claim 1, wherein the chamfered end is chamfered at an angle between 20 to 60 degrees.
 4. The suture button insertion system of claim 1, wherein the chamfered end is chamfered at an angle equal to 30 degrees.
 5. The suture button insertion system of claim 1, wherein the single opening of the support is centered relative to an axis extending through the first and second wings.
 6. The suture button insertion system of claim 1, wherein the single opening of the support is off-centered relative to an axis extending through the first and second wings.
 7. The suture button insertion system of claim 6, wherein the off-centered single opening of the support is off-center towards the side of the button inserter with the suture.
 8. The suture button insertion system of claim 1, wherein a plane extending through lengths and widths of the first and second wings is parallel to a central axis of the single opening.
 9. The suture button insertion system of claim 1, wherein the insertion tip includes at least one slit.
 10. The suture button insertion system of claim 9, wherein a gap remains in the at least one slit between the suture button and the button inserter when the second wing is fully positioned within the insertion tip.
 11. The suture button insertion system of claim 1, wherein an interior surface of the insertion tip includes at least one recessed portion adjacent to at least one non-recessed portion, wherein the second wing includes a top surface and a bottom surface, the top surface including at least one recessed portion adjacent to at least one non-recessed portion, wherein the at least one recessed portion of the insertion tip corresponds to the at least one non-recessed portion of the second wing, and wherein the at least one non-recessed portion of the insertion tip corresponds to the at least one recessed portion of the second wing.
 12. The suture button insertion system of claim 1, wherein the pusher rod includes a flat end surface substantially perpendicular to a plane extending through the lengths and widths of the first and second wings.
 13. A suture button insertion system comprising: a suture; a button inserter including a shaft having an insertion tip, a pusher rod within the shaft, and a trigger, wherein activating the trigger causes the pusher rod to translate within the shaft; and a suture button including: a support having a single opening, a first wing extending from the support, and a second wing extending from the support directly opposite the first wing, wherein the second wing includes a chamfered end, wherein the single opening extends in a direction transverse to a plane defined by the first wing or the second wing, wherein the suture is positioned through the single opening and on a side of the button inserter, and wherein the second wing is positioned within the insertion tip such that the chamfered end is facing towards the side of the button inserter with the suture.
 14. The suture button insertion system of claim 13, wherein the suture button is a first suture button, and wherein the system further comprises a second suture button or anchor coupled to the first suture button by the suture.
 15. The suture button insertion system of claim 13, wherein the chamfered end is chamfered at an angle between 20 to 60 degrees.
 16. The suture button insertion system of claim 13, wherein the single opening of the support is centered relative to an axis extending through the first and second wings.
 17. The suture button insertion system of claim 13, wherein the single opening of the support is off-centered relative to an axis extending through the first and second wings.
 18. The suture button insertion system of claim 17, wherein the off-centered single opening of the support is off-center towards the side of the button inserter with the suture.
 19. The suture button insertion system of claim 13, wherein the insertion tip includes at least one slit, wherein a gap remains in the at least one slit between the suture button and the button inserter when the second wing is fully positioned within the insertion tip.
 20. The suture button insertion system of claim 13, wherein an interior surface of the insertion tip includes at least one recessed portion adjacent to at least one non-recessed portion, wherein the second wing includes a top surface and a bottom surface, the top surface including at least one recessed portion adjacent to at least one non-recessed portion, wherein the at least one recessed portion of the insertion tip corresponds to the at least one non-recessed portion of the second wing, and wherein the at least one non-recessed portion of the insertion tip corresponds to the at least one recessed portion of the second wing. 